Coin-controlled card displaying and vending machine



P. CHALFIN ET AL Get. [3, 1953' COIN-CONTROLLED CARD DISPLAYING AND VENDING MACHINE Filed Feb. 7, 1948 10 Sheets-Sheet l INVENTORS N Wm M MM MM Z 77157, ATTORN EY' Oct. 13, W53 P. CHALFIN ETAL 5,

COIN-CONTROLLED CARD DISPLAYING AND VENDING MACHINE Filed Feb. 7, 194a 10 Sheets-Sheet 2 P Z INVENTOR) Pv/Z/P ('HAAFl Y 5 Bi/VJAM/NC'HALFl/Y BY I I Ifk/ 72/5 ATTORNEY Oct. 13, 1953 P. CHALFIN ETAL 2,655,242

COIN-CONTROLLED CARD DISPLAYINGYAND VENDING MACHINE' Filed Feb. 7, 1948 1Q Shuts-Sheet s 7745/2 ATrORNEY' Oct. 13, 1953 PFCIHALFIN ET AL COIN-CONTROLLED CARD DISPLAYING AND VENDINGMACHINE Filed Feb. '7, 1948 10 sheets-Sheet 4 77mm ATTORNEY' Oct. 13, 1953 P. CHALFIN ETAL 2,655,242

COIN-CONTROLLED CARD DISPLAYING AND VENDING MACHINE Filed Feb. 7, 194a IQ-Sheets-Sheet 5 INVENTOR P/I/z C'l/AL F/N 77/50? ATTORN EY:

Oct. 13, 1953 P. CHALFIN ETAL 2,655,242

I COIN-CONTROLLED CARD DISPLAYING AND VENDING MACHINE Filed Feb. 7, 1948 1Q Sheets-Sheet 6 INVENTOR} P/l/z 7P (Mun/v a! (Ban/4mm CHALF/N WWW THE/e ATTORN EY Oct. 13, 1953 P. CHALFIN ETAL 2,655,242

COIN-CONTROLLED CARD DISPLAYING AND VENDING MACHINE Filed Feb. 7. 1948 4 1o Sheets-Sheet 7 lil H alll' 0 V INVENTOR? PM IP .C'HAL F/N J BENJAM/NC/MIHA/ 771mb ATTORNEY Oct. 13, 1953 P. CHALFIN ETAL 2,655,242

COIN-CONTROLLED CARD DISPLAYING AND VENDING MACHINE Filed Feb. '7, 1948 10 Sheets-Sheet 8 INVENTORS Pm/ Own/v 6 Bf/VJAM/N O/AAF/N THE/R ATTORNEY Oct. 13;]953 P. CHALFIN ETAL 5 COIN-CONTROLLED CARD DISPLAYING AND VENDING MACHINE Filed Feb. 7, 1948 10- Sheets-sheaf 9' INVENTOR? P/m/p ['flAlH/Y a9 BENJA /yLHALH Y 71w ATTORNEY-1.

Oct. 13, 1953 w P. CHALFIN ETAL 2,655,242

COIN-CONTROLLED CARD DISPLAYING AND VENDING MACHINE Filed Feb. 7. 1948 10 Sheets-Sheet 1o INVENTOR} PM; /P CHAlF/N J EE/YJAMl/Y (mun/v BY 77m ATTORNEY-v.

Patented Oct. 13, 1953 COIN-CONTROLLED CARD DISPLAYING AND VENDING MACHINE Philip Chalfin, Eatontown, N. J and Benjamin Chalfin, Philadelphia, Pa.

Application February 7, 1948, Serial No. 6,984

Claims. 1

This invention relates in general to vending machines and, more particularly to a novel, coincontrolled display and vending machine for the display and sale of reeting cards, picture postals, booklets and the like.

The principal object of the invention is to provide a fully automatic, coincontrolled carddisplay and vending machine embodying certain desired improvements and conveniences; adapted for use in railroad stations, mercantile establishments, public booths, and other places of public assembly; and having an unusually large and diversified supply of cards or other items with means facilitating their quick inspection and dispensing.

Another object is the provision of a coin controlled, card-display and vending machine incorporating improved loading and dispensing facilities with substantially automatic control, both of the display and vending mechanisms.

Fig. 4 is an elevational view of the device, with parts broken away for clarity of illustration, as seen from the left hand side of Fig. 1;

Fig. 5 is an enlarged, perspective view, with parts broken away, and showing in detail, a portion of the card-display assembly;

Fig. 6 is a front elevational view of the carddisplay means and showing a card as seen in the normal position for making a selection;

Fig. 7 is an enlarged, fragmentary perspective View, with parts broken away, and showing a portion of the vacuum-controlled, card-delivery means;

Fig. 8 is an enlarged, fragmentary elevational view, partly in section, and showing a portion of the bellows assembly or means which operate Another object is the provision of a display and may be free to select a different card other than l the one ori inally selected up to the time the initially deposited coin reaches the coin hopper.

A further object is the provision of improved electric circuit-making and breaking instrumentalities for the actuation of the various operating components of the device.

A still further object is to provide a device that will afford the public a larger and more diversified selection of cards and in a more convenient disposition for inspection, than in previous devices of this type.

Other objects and advantages of the novel de sign and construction employed, and of the operating facilities afforded will appear more fully hereinafter, and will be best understood when taken in connection with the accompanying drawings, wherein:

Figure 1 is a perspective view of the exterior of a coin-controlled display and vending machine embodying the invention;

Fig. 2 is a front elevational view of the device by vacuum to convey a card to the delivery chute of the device;

Fig. 9 is a fragmentary elevational view, partly in section, as seen on line 9-9 of Fig. 8, looking in the direction of the arrows;

Fig. 10 is an enlarged, fragmentary elevational view, partly in section, with parts broken away and disclosing details of the means for applying or controlling the reduced air pressure or vacuum which functions to lift and convey a card to the delivery chute;

Fig. 11 is a fragmentary elevational view, partly in section, with parts broken away, and showing certain operating controls and associated parts which co-act to either return a coin to the customer, or to deposit it in the coin container of the machine;

Fig. 12 is an enlarged, fragmentary perspective view of the means employed for energizing and ale-energizing the electrical circuit which function to selectively operate the card-display assembly and card-supply drum;

Fig. 13 is an enlarged perspective view, with parts broken away, of the power-driven cam means which function to operate a switch to prevent actuation of the card-display and cardsupply instrumentalities during the delivery cycle and also to maintain the cam-operating motor circuit closed until the card is delivered;

Fig. 14 is a diagrammatic representation of the electrical circuit and certain associated parts;

Fig. 15 is a fragmentary, front elevational view, with parts broken away, of a modified form of the card-supply mechanism;

Fig. 16 is a view similar to Fig. 12 and showing a slightly modified form of the circuit-energizing and deenergizing means; and a Fig. 17 is a view similar to Fig. 14 and showing diagrammatically the electrical circuit employed in the modified form of the invention.

The invention contemplates the provision of an improved dispensing machine for the display and sale of greeting cards, although, the mechanism is adaptable for the sale of articles such as booklets, phonograph records, and various other items. The device is particularly adapted for use in large mercantile mar-ts and such places as railroad stations, department stores, and wherever a prospective purchaser desires to select a card from a large and diversified assortment in the most convenient way and with a substantial saving of time. It permits the customer to change his mind as to the selection of a card prior to the actual delivery of the card. For example, in railroad stations, where a purchaser may have but a few minutes available to select a card from a group, the machine by its novel mechanism will quickly bring to view an entire preselected group of cards, such as birthday cards, and then, upon actuation of a button, each card of that group will be individually brought into view.

Referring now in detail to the drawing wherein similar characters of. reference indicate corresponding parts in the view of the preferred forms of the invention, the numeral 22 designates generally a cabinet or casing which houses the operating components of the device.

As viewed. exteriorly, the front side of the cabinet 22 is provided with an illuminated or fluorescent panel, as at 23, which may bear a suitable advertising slogan, as at 23c. Beneath the glass panel 23, a viewing window 24, which permits an inspection of the cards or other merchandise, is secured. The operating controls of the machine are also conveniently arranged on the front of the cabinet, as best shown in Fig. 1, and, these include the card group selector dial 25, dial pointer arm 25d; the individual card selector button 25; the coin receiving, slot 21; the coin advancing plunger button 28-; coin return knobv 2S and associated coin return receptacle 3B; and the card delivery bin 3 i A pairof: hinged and normally locked doors 32, 33 on the side.- ofthecabinet affords access to the. interior thereof, when desired.

Within the cabinet 22, the rotary-card-display assembly, indicated, generally'at 34, and the carddelivery assembly, indicated; generally at 35, together with their electrically operated driving components, are operatively housed. The carddisplay assembly 34 comprises a: plurality of: trays 36 each of which is detaohably' and movably securedto conveying means which include two pairs of spaced sprockets 38' fastened respectively to shafts 39, 40, rotatably supported in pairs of bearing brackets M, 42 respectively, supported on spaced platforms 43,. M, and secured thereto, as by the screw bolts 45.. The platforms 43' and 44 are secured to adjacent portions of the cabinet. The pairs of sprockets 31, 38 are operatively connected by a pair of link chains 46, H, arranged in spaced parallelism.

Each tray 36. has secured to its undersurface pairs of spaced resilent clips, as at 48', which may be fastened at one end, as at 49, to the adjacent surface of the tray while having their opposite end free.

The resilient clips 48 are turnably and removably secured to bars 50, and permit the trays 35 to be detached when desired, and others substituted therefor. Each of the bars 50 has secured to its opposite ends, rollers 52, 53 which engage upper and lower pairs of guide straps or tracks 54, 55, respectively, that are arranged at opposite sides of the rotary card display assembly 34 and which are maintained in the position best shown in Fig. 3, by vertically disposed, attached bars 56. 51. The bars 55, 57 in turn are fastened at their lower ends to horizontally extending supporting straps 58, bolted or otherwise suitably secured to the front and back of the cabinet 22, as at 59.

The means for driving the card-display mechanism 3E referred to above, includes a sprocket E2 fastened to the shaft 48 and operably connected as by the chain (ii to a gear reduction unit indicated generally at 62 in turn connected as by the coupling 63 to a motor 54 supported on a bracket 65 fastened to an adjacent side of cabinet 22. A second sprocket 66 on the shaft 40 is operably connected to a sprocket 67, by a chain 53, the sprocket 61 being secured to the operating shaft 69 of a gear reduction unit, indicated generally at ill and connected to means associated with the card group selector 25, as hereinafter described more fully.

As best shown in Figs; 2, 3 and 4, the shaft 40 bears anadditional sprocket H which is connected by a chain i2 to a sprocket l3 fastened to a shaft M rotatably mounted in a bearing bracket or standard "i5, and at its other end in a. bearing bracket 76 arranged on a side of the cabinet.

The shaft '54 has secured thereto the hub Ti of a drum 1-8 which forms a component part of the card-delivery assembly 35. As best shown in Fig. 3, the drum '18 includes a plurality of concentric rings i9, til, 31' which are maintained in spaced relation by radially positioned ribs or struts indicated generally at 82 The ribs 32, in combination with the hub H and concentricrings 19, 88, SI- provide a plurality of concentric rows or tiers of bins or compartments 83, each bin accommodating an ample supply or group of greeting cards, as at 84; each card preferably being included. in an envelope of proper size. A coil spring 85 in each bin 83 and confined be tween the outermost card. of each group and the surface of an adjacent radial rib 82, serves to maintain each group. of cards. in compact form and having the innermost. card juxtaposed against a vacuum cup or card-gripper element B6.

itsv best shown in Figs. 7,. 8 andv 9, each cardgripper 85 is operatively connected by a pipe 81 to a bellows assembly, indicated generally at. 88 and including a pair of plates, 90, Si recessed on one side as at 92, to accommodate the opposite ends of a flexible and collapsible tubular member 93. The collapsible. bellows member 93 is normally maintained in the. extended position shown in Figs. '7 and 8 by a coil spring 95 confined therein and between the plates 38, 91 The inner plate has. a pair of U-shaped members 95, 96 fastened to its top edge and receiving a corresponding pair of guide bars 97, 98 secured in turn to the outer walllta of the drumlS and to the fixed plate 9!, the latter being fastened to a portion of an adjacent ring of the drum, as by the studs 99. As hereinafter described, as the air begins to be evacuated from the collapsible member 93, and through a pipe I93 having the conical socket IOI, secured as at 102, to the outer circumference of the drum 78, the said collapsible member will convey its attached movable plate 90 and the card gripper or vacuum cup 85 thereon outwardly from thedrum '18 in order to deposit an attached card into a delivery chute 103' supported.- by a bracket [84 on the floor of the cabinet 22 and in the inclined position shown in Fig. 3.

The delivery chute I83 includes a shelf I05 pivoted therein, as at Hi6, and. partially supported by a plunger button I01 of a circuit-making and breaking switch I68. As hereinafter described, the impact of a card falling on the shelf IE5 from any of the card bins 83 will angle the said shelf in a counterclockwise direction and thereby thrust downwardly the plunger 181 of the switch I33 to complete temporarily a holding circuit effective for actuating means to direct a coin, previously deposited in the coin slot 21, into the cash box or hopper I92, as will be described more fully hereinafter.

The suction or vacuum-applying means and the instrumentalities associated therewith for conveying a preselected card from the drum of the card-supply assembly 35, includes a motor III! mounted on the floor of the cabinet 22 and having its shaft coupled, as at Iii to a suction pump designated generally at II2, which is con nected as by the pipe II3 to a vacuum tank Ht having a suitable pressure-indicating gauge H5. The vacuum tank I It has connected thereto a pipe I I5 which, as best shown in Fig. 4, is extended from the vacuum tank and upwardly to a sup porting bracket ii? on one side of the cabinet. The circuit of the motor H3 includes an automatic pressure-controlled switch, of conventional design and indicated generally at IIiia. Whenever the suction or air pressure in vacuum tank II4 exceeds a predetermined value, the switch I I80; will close and complete the circuit to create the desired degree of suction, after which it will automatically open to break the circuit. To the upper end of the pipe H6, one end of a flexible hose H8 is connected, as by the pipe clamp H9. The other end of the hose H8 is coupled, as at I20, to a pipe IZI pivotally or roekingly mounted, as by the pin I22, on a hanger or bracket I23 suitably secured or bolted to the shelf or platform 44. The suction pipe IZI, which has its outer end closed, as by the plug I2 II), is resiliently biased by a tension spring I2Ia, connected at one end to the said pipe and at its other end to the shelf 44, and is provided with a valve equipped, conical nozzle member I24, hereinafter described more fully, that is adapted to coact with any of a plurality of conical sockets IE3! on the card supply drum it.

The means for rocking the pipe I2 I with a view to temporarily connecting the nozzl I24 to any one of the sockets IEEI or disconnecting it from a socket to which it may have been previously attached, includes a cam roller I25 rotatably mounted on a pin I26 secured to the undersurface of the pipe IZI. The cam roller I25 is operatively engaged by a cam I2'I, fastened to a shaft I28, turnably supported on a bracket I29 in turn secured to a shelf or platform I38 secured to the front and back of the casing or cabinet 22 in any suitable manner as by the screw bolts I3 I. The cam shaft 523 is connected to a circuit-making and breaking switch assembly, designated generally at i32, having a housing I33 and hereinafter described more fully; the said shaft I23 also being extended and coupled, as at I34, to a gear reduction or exchange assembly designated genorally at I35, that is coupled in turn, as at I36, to a motor I33. The motor I3? not only serves to actuate the suction-applyihg means, but also, as hereinafter described more fully, the switching means which function to control the card delivery cycle and the coin collecting and return mechanism.

As best shown in Fig. 10, the nozzle member, designated generally at I24 and referred to above, includes a valve having a conical body member 6 I38 engaged by a compression spring I353 con fined between the top of the valve body and the adjacent inner surface of the rockingly mounted pipe I2I into which it is protruded through an opening I 40. By further inspection of Fig. 10, it will be seen that the valve body or member I38 has a depending stem I Ii secured to its apex and normally protruding exteriorly of the opening M2 in the outer end of the nozzle. The lower end of the stem MI is adapted to engage a pin I 43 transversely arranged in each of the pipes I96 and adjacent their conical sockets iIiI. In the position depicted in Fig. 10, the stem of the valve I4I has engaged in the pin I43 and as a consequence, the valve body I38 has been raised from its conical seat I44 in the nozzle member I24. In this last-mentioned position, reduced air pressure or suction from the tank H 5 and via the pipe II6, hose H8, and rocking pipe I2? is being applied through the immediate socket IIlI actually engaged by the nozzle member its in order to actuate the collapsible member 93 to convey the gripper socket t6 and a card now engaged therewith to a position where, as previously mentioned, it may fall into the chute I93 at a time when the vacuum is relieved as the cam I 21 raises the nozzle I 24 out of the conical socket IIJI previously engaged, and by means described hereinafter.

. In order to bring a desired group of cards within the scope of the viewing window 25, as for example birthday cards, the dial pointer 25a with its attached stem I45 having the attached radially-extending arm I46, will be turned by the prospective purchaser. The arm M8 is equipped with a depending contact prong or finger I4? engaging an insulated segment I d3 arranged in the circumference of a metallic disc I49, secured to an upper end of a shaft or rod Iiid operatively connected and forming a part of the gear re duction unit II! hereinbefore mentioned. The insulated segment I48 has a projecting stop I480; for a purpose hereinafter explained. The shaft I5t also has secured thereto a second metallic disc I5I provided with a series of spaced circumferentially-positioned insulating segments The last-mentioned disc i5! and its shaft I50, as best shown in Fig. 12, are engaged. by two circuit-completing strips I53, I54 respectively. which as hereinafter described more fully, are adapted to convey current through the shaft I53 and disc I5! respectively, at a predetermined time. The first-mentioned disc I49, as also shown in Fig. 12, is engaged by a contact strip or arm I55, while the hub of the arm I46 is correspondingly engaged by a contact strip I55. The energizing electric circuit of the device or more par ticularly those portions thereof associated with and made operable by parts connected to the dial 25 and push button 25, is shown in Fig. 14.

It will be understood that the motor 66, through the interconnected series of gears and chains described above and illustrated in Figs. 2, 3 and 4. will simultaneously actuate or rotate the carddisplay assembly 34, the card supply or delivery assembly 35 and the gear reduction unit I0 until a position of the drum is reached that is effective to permit the dispensing of the card desired. This partial rotation of the shaft I5e and the discs I49 and I5I attached thereto, which will equal in value the are described by the finger 25a when originally set to the sector of the dial 25 enclosing the notation indicating the cards desired, will bring the insulating segment I48 again under the finger I41, thereby breaking the circuit and deenergizing the motor 64, as the stop or prong I48a engages and prevents disengagement of the finger I41 from the said insulating segment.

In order to prevent angular movement of the arm I46 as the disc I49 turns and prior to contact of the insulated stop prong I481; with finger I41 of arm I46, a friction. shoe I45a is secured to an adjacent extension of the cabinet. The said shoe normally functions as a brake to restrain undesired angular movement of the stem I45 or until the dial pointer arm 25a is manipulated. The actual circuit for actuating the component parts that revolve the endless tray, conveying means which sequentially bring into view the various individual cards of each group of cards, is completed via the wire I58 to arm 55 engaging metal shaft I56, thence through metal disc I49 to contact I41 of arm I56, then through wire I59 to motor 64, wire I66 to upper conducting strip I 6I and movable resilient conducting strip I62 of the switch. I32, and then to the source of supply I51, thus completing the circuit. The movable conducting strip I62, is engaged and operated by a cam I28a on shaft I28 (Fig. 13), the said cam I28a also withdrawing from strip I62 at a later time in the operating cycle, and thereby permitting the said strip I=62 to break the circuit through motor '64 while completing a circuit to motor I 31 via the lower conducting strip I63. The circuit of motor I31, as hereinafter described, is completed by a coin previously inserted in the coin slot and at a time when the customer, after finally deciding to purchase a preselected card, has pushed the coin-advancing button 28 in order to permit the device to deliver the card.

In further accordance with the invention, and assuming that the class group of cards desired has been brought before the viewing window 24, if the first card of this group is not to the pur chasers liking, he may now inspect other cards of that same class group by pressing the individual card selector button 26, which completes a momentary parallel circuit across the source of supply I51 (Fig. 14), via wire I 58, auxiliary wire I58a, push button 26, wire I59, motor 64, wire I66, switch conducting strip I6I, movable switch contact member I62 and thence to source of supply I51.

Thi momentary energization or parallel circuit will sufiice to actuate the motor 64 long enough for the latter to turn the shaft I59 and the two attached discs I49, II in order to permit disc I5I to rotate relatively to the wiping contact member I54 and withdraw from the adjacent insulating segment i52 and be engaged with a metallic portion of the disc I5I. This partial revolution of the shaft I56 and disc I5I will continue until the next adjacent insulating segment is engaged with a consequent breaking of the circuit. It will be also understood that disc I49 has been synchronously rotated with disc I5I, but since the contact finger I41 has been carried around by the prong I 480. of the insulating segment I 48, in this last described cycle for individual card selection, no flow of current will occur through disc I49. This cycle may be repeated until a card of the preselected group comes to view which meets the customer's requirements.

With a view to obtaining a replica of the selected card, as seen through the window 24 of the casing 22, and as presented by one of the carrying but now motionless trays 36, a coin may be inserted in the slot 21 to be conveyed by the attached coin chute 21a into a tubular or oblong member I65 having a trap-door I66, swingingly supported in the normal horizontal position shown by a spring hinge I61. The coin, it is to be understood, after its insertion, as above-indicated, is deposited on the trap-door I66 where it may remain until the customer has fully made up his mind as to the purchase of a card, or to having his coin returned in the event of a non-sale. When desired, the trapdoor I66, with a view to the return of the previously inserted coin, may be swung downward- 1y by an attached cord or wire I68 in turn secured to a lug I69 on the inner end of the stem I16 of the coin return knob 29. This movement of the trap-door will permit the coin, previously supported thereon, to drop into the coin return hopper 39, as hereinafter described more fully. The stem I16 is encircled by a spring I1I confined between the lug I69 and a sleeve I12 arranged in the front wall of the cabinet 22. The stem I18 also has fastened thereon a stop collar I13 which retains the said stem in the normal position shown to which it is biased by the spring I'II (Fig. 11).

As further shown in Fig. 11, the shank or stem I14 of the coin plunger 28 is provided with a pusher block or shoe I15 at its inner end, and is protruded through a partition I16 within the tubular member I65. A compression spring I11 encircling the plunger stem I14 of the coin plunger is confined between the partition I16 and a collar I18 fixed to the plunger stem, the spring normally serving to maintain the plunger assembly in the position illustrated and the shoe in abutment with the partition I16 prior to manual actuation of the said assembly. By thrusting the push button 28 inwardly, any coin on the trap-door will be conveyed to and between the upper end of a non-metallic coin delivery member I88, protruding through an opening I8I in the member I65, and a roller I82, aflixed on an arm I83, operatively associated with a circuitmaking and breaking switch I84, arranged on the member 465 and adapted to complete a circuit through motor I31 which actuates the vacuum or suction applying means, hereinbefore mentioned. The coin delivery arm or member I86 is rockingly mounted on a pin I fastened to a strap I86 supported between upwardly extended panels I81, I 81a and maintained in the normal vertical position shown in Fig. 11 by a pair of springs I88, I89 also secured to and between the same partitions. The member N36 is provided at its top portion with a pair of diagonally arranged coin-deflector vanes I96, I6I which as hereinafter described more fully, serve to direct a coin resting on the top of the metallic arm, either to the coin return chute 36, as in the case of a non-purchase; or to the cash box or hopper I92, in the event of a sale. A coin resting on the trap-door I66 when the latter is swung downwardly, will fall on the vane I96 and thence drop into the coin return hopper 36. This procedure occurs when the purchaser has changed his mind before thrusting in the coin-advancing button 26.

Simultaneously with the actuation of the switch I84, a coin-blocking solenoid I93 is energized (Fig. 14) as hereinafter described more fully. The solenoid I93 is arranged in a housing I94 suitably secured to an adjacent portion of the cabinet and the coin chute 21, and has its armature I95 available to protrude across and block the coin chute 21, when its circuit is completed, in order to prevent deposit of another 9 coin while the originally inserted coin is still resting between the rock arm I80 and the switch arm roller I82.

The completion of the electric circuit through motor I31 by the engagement of the coin be" tween the upper end of the coin-delivery rock arm I80 and the switch roller lti, as best shown in Fig. 14, initiates the operation of the motor I31 whose shaft is coupled to the gear reduction assembly I35 in turn coupled to the switch I32 whose shaft I23 bears the cams i2"! and I2i3a. By inspection of Figs. 10 and 13, and as hereinbefore described, it will be seen that the now rotating shaft I28 which turns in a counterclockwise direction, Will function to operate the card-ejecting or delivering mechanism that includes the vacuum cup grippers 85 and associated bellows assembly 88, and also the cycle timing and coin delivering mechanism. It is to be understood that both of the cams I27 and I28a on the shaft I28 make one complete revolution for each cycle. The turning ofthe switch cam I28a in the counterclockwise direction hereinbefore mentioned, will initially break the circuit to the motor 65 as the movable arm I62 is permitted to swing away from conducting strip I6l, thus preventing further operation of the card display mechanism during the functioning of the card delivery mechanism. Approximately at the same time as the breaking of the circuit to motor 64, the now released resilient arm I62 will engage with the lower conducting strip I53 and complete a circuit through the suction applying and cycle-timing motor I37. The closing of the circuit to the motor I37, as last described, by the arm I62 and lower conducting strip ltt, will be maintained for the rest of the delivery cycle even after the removal of the coin from its position between the arm I80 and roller I82, since the newly established circuit is in parallel or shunt with that initiated by the coin when first thrust into position to operate switch i184.

During the first quarter or approximately 90 degrees of the revolution of the cam I28a, a card will be engaged by one of the gripper cups 86 in the uppermost bin 83 of the delivery drum it, this action taking place as the cam I2? is still disengaged from the cam roller I25 on the rockingly mounted nozzle pipe I2I, the nozzle I24 having communicated suction to the bellows assembly 88 of the said uppermost bin. The further functioning of the card gripper 86 has been inpart indicated above, the bellows member $3 progressively collapsing as the air is being continuously evacuated therefrom. This collapsing movement, as best indicated in Figs. '7 and 8, will convey a card adhering to the vacuum cup or card gripper 86 in the direction of the arrow. of Fig. 7 to a point where it protrudes substantially without its bin. It will be observed thateach bin 83 is provided with a guard rail 8311- which serves to retain the other cards in the bin from disarrangement during the extracting of the card raising the vacuum nozzle from the adjacent and uppermost socket Iill (Fig. 2), will permit the said card tofall upon the shelf' I (Fig. 3) and dial 25 to swing the pointer ar-m 25a to the ap- I swings the latter in a counterclockwise direction and permits the coin to fall upon the inclined deflector vane IQI and be deflected thereby into the cash hopper I92. It will be understood that the card at approximately this time of the cycle will have slid on the shelf I of the switch it,

-ment by cam I28a, is thrust into contact with arm I99, thereby completing the circuit through another electromagnet or solenoid 2883 connected by a link 230a to rock arm I36 and enective to rock the latter in a clockwise direction. Since the coin has already been deposited in the cash hopper H2, this movement of the arm I85} does not eifect a cash return in this instance. The links Illta and Etta, it is to be understood, provide sufiicient lost motion to permit their adjacent attached electromagnets tilt and 260 respectively, to function properly.

Further rotation of the cam lzfia and during the last quarter of its full revolution will reengage it with movable arm I62 thereby lifting and withdrawing the latter from the conducting strip I63 consequently breaking the circuit through motor I37 while restoring the parts to the position shown in Fig. 14 and with the coin delivery arm in the neutral or normally vertical position shown in Fig. ll.v The coin-blocking solenoid I93 is also deenergized with the return of the coin delivery arm to neutral position.

If the card bin flt'immediately engaged is empty, or the card ejecting mechanism temporarily out of order, or ii the cards jam or if there is any other reason which prevents actual delivery of the card, the switch I08 remains open during the whole cam cycle and consequently the cashdeliverying solenoid I96jis not energized. The coin delivery ar-m also remains in neutral or ver tical position, instead of permitting the coin to be deflected into the cash hopper I92. However,

in the present contingency, the tip of cam I28a will engage and move, in its rotation, the arm use into contact with arm I99 to close thereby a circuit through the coin return solenoid 2&6 and pull the arm I853 to rock it in aclockwise direction.

This last-mentioned rocking movement will permit the coin still on top of the arm let to strike the deflector vane I96 and fall into the coin return chute 30.

The operation of the embodiment of the ins vention disclosed in Figures 1 to 14- inclusive,

may be briefly outlined as follows:

The prospective purchaser first avails of the fpropriate angular position indicated'by the cooperating circular indicia to bring into efiective range a desired group or class of cards. Thus:

11 the arm 25a is moved to the segment indicating birthday cards, sympathy cards, greeting cards or the like. This movement is transmitted to the shaft I45 to rotate the arm I46 and bring the'finger i4! out of engagement with the insulated segment I48 and into contact with the periphery of the metallic disk I49. The extent to which this finger is moved depends on the particular group or class of cards.

The electric circuit to the motor 64 is now energized, and this motor will operate both the .display apparatus 34 and the vending apparatus 35 to bring the first card of the particular group into position beneath the window 24 of the cabinet where it may be viewed by the prospective purchaser. The motor 64 is connected to the shaft 40 of the display apparatus by the chain IiI. This shaft 48 is in turn drivably connected to the shaft 69 by the chain 68. The gear reduction unit I8 is'drivably connected to the shaft 69. Thus, as the motor is driven, the gear rejectionunit I is operated to rotate the shaft I50 until the insulated segment I48 again comes beneath the finger I41. This breaks the circuit to the motor 84 and. the latter is deenergized.

If the prospective purchaser is not satisfied with the first card of the particular group which is brought to his attention, he presses the pushbutton 26. This momentarily completes a parallel circuit to the motor 64 and energizes the latter just sufiiciently to bring the next card of the group into position where it is inspected. Thus, the push-button 26 may be repeatedly actuated until a satisfactory card is brought into position beneath the window 24. As the display apparatus is operated in this manner, the vending drum is also rotated because it is driven from the shaft 40 by the chain 72. Thus, the bin 83 having a supply of cards corresponding to that which has been brought into position at the window 24, is brought into position in which the flared mouth IOI of the pipe I80 of that particular bin is beneath the nozzle I24.

The operator now inserts a coin through the slot 27. The coin travels downwardly through the tube 21a into the tubular member I65 into a position in which it has not yet engaged the roller I82. In this position it rests on the trap door I66. If, at this time, the prospective purchaser should change his mind either as to the particular card selected, or as to making any purchase at all, he may have the coin returned to him by simply exerting a pull on the coin return knob 29. This motion is transmitted through the line I68 to rock the trap door I56 and cause the coin to fall thereofi onto the baflie I98 which diverts the coin into the coin return box 30, from whence it may be retrieved by the purchaser.

0n the other hand, should the purchaser be desirous of completing the sale, he presses inwardly on the coin pusher knob 28. This causes the shoe I15 to engage the coin and move the latter between the upper rounded end of the lever I80 and the roller 82. This imparts an upward movement to the arm I83 to actuate the switch I84 to complete the circuit to the motor I31. At the same time the solenoid I83 is energized to move the plunger I95 into position restricting the slot 21 so that no coin can be inserted therethrough until that particular transaction is completed.

The cash delivery solenoid I96 is also energized to withdraw th plunger I96a from holdmg engagement with the lower end of the lever I and permit the springs I88 and I89 to rock the lever and deliver the coin to the cash box I92. However, this action does not take place unless the switch IDS is closed, which action is accomplished by a card falling onto the shelf I05 with the weight or the card actuating the push button It! of the switch I88. Of course, if the particular bin is empty, no card will fall onto the shelf I05 and the switch I68 will not be actuated. In this event the solenoid I98 is not energized, but instead the coin return solenoid 209 is energized to rock the lever A in the other direction and deliver the coin to the coin return box 30.

When the circuit to the motor I31 is completed by the switch I82 the shaft I28 is actuated to rotate both the cams I21 and I28a. The cam I21 engages the cam roller I25 0n the air conduit I2i. Due to the shape of the cam, the spring I2Ia will rock the conduit I2I and bring the nozzle I24 into engagement with the flared mouth IIlI of the pipe I68 of that particular bin. This engagement opens the valve in the nozzle to render effective the vacuum condition in the tank II4 to exhaust air from the bellows 83 and thus cause a card in the particular bin to be picked up by the member 88 and moved over to the upper end of the delivery chute 3I.

As the shaft I28 continues to rotate, the cam I28a is effective on the contact strip I62 to break the circuit to the motor I37 at the proper time. Continued rotation of the shaft causes the cam I21 to again lift the nozzle I24 from the flared mouth WI and interrupt the reduction of pressure in the bellows. The card is then released from the member 88 to fall onto the shelf I35 in the delivery chute 3|.

In this condition the nozzle I24 is not connected to any flared mouth IOI. The motor I31 is deenergized, and of course, the circuit of the motor 64 is broken. The apparatus is therefore in condition to have the cycle of operation repeated.

In the modified form of the invention shown in Figs. 15 to 17 inclusive, a cabinet, indicated generally at 2I8 is provided with card display mechanism and card delivery mechanism (not shown) of the same general character as that described and illustrated in the first form of the invention. It is also to be understood that in large measure the same type of driving and operating mechanism therefor is provided. In the present form of the invention, with a view to providing approximately twice the number of cards shown in the first form, two card supply drums, H I, 2I2 having supply bins, bellows and suction gripper mechanism substantially as shown in Fig. 3 of the other form of the invention, are provided. Each of the two drums 2I I, 2I2 has conical socket members 2| Ia, 2I2a respectively, of the same type as hereinbeiore described. The creation of a suction or vacuum is similarly effected through a pair of rockingly mounted nozzle assemblies indicated generally at M3, M4, which are moved into and out of operative engagement with the conical sockets 2I Ia, 2I2a. by cam means 2I5, 2I5a respectively, operated in a manner previously described with respect to the first form of the invention. The drums 2II, 2I2 are arranged in spaced relation and secured to shaft, 2I6 supported in bearing brackets Zn, 218 mounted on the floor of the cabinet 2). The drum 2I2 may be slidably mounted on the shaft 2I6 as by the screw 2I6a.

13 with a view to convenience in refilling the bins of both drums. The shaft 2H, is driven as in the first form of the invention and through the intermediary of a chain 219 operatively coupled to a driving motor 220 (Fig. 17).

The features which distinguish the present form of the invention over the form hereinbefore described, will be best understood by inspection of the circuit diagram depicted in Fig. 1'7 and the fragmentary perspective View (Fig. 16) of the circuit completing means that are controlled and made eiiective by means similar to those best shown in Figs. 1, 3, 11 and 13 and which include the group dial selector 25 and the individual card selector button 26.

In the present form of the invention, the card display actuating mes ns, are approximately similar to those described and illustrated in the'first form of the invention, and wherein the cardbearing trays are similarly advanced in substantially step-by-step progression for convenience of viewing. The said card-displaying means are electrically controlled by means which include a corresponding card group dial selector mechanism (Fig. 16), having three metallic discs 22!, 222 and 223 respectively. Discs 22! and 222 are identical with those shown in Fig. 12 of the first form of the invention. A third disc 223 is composed of two equal metal halves 223a, 2232) insulftingly separated by an insulating strip 224. TI'hese two halves are respectively engaged by diametrically opposed conducting arm 225, 226. As illustrated in Fig. 1'7, the metal half 2231:. is engaged by a third conducting arm 22?. When the dial selector arm depicted diagrammatically in this instance and designated by the numeral 223, is engaged with the periphery of metallic disc 22! after withdrawal from the insulating stop segment 22s therein, a circuit will be completed from the electric supply 236 via wire 23!, wire Z32, conducting arm 233, metal shaft 234, metal disc 22!, arm 228, wire 235, motor 22!], wire 236, conducting strip 231 of switch 238, movable switch arm 239, and. wires 240, 24% to the source of supply 230, and thus actuating the motor 225 which, it is to be understood, has its shaft 228a operatively coupled to the shaft 234 on which the three discs 221, 222 and 223 are mounted.

The procedure for viewing the different individual cards of the preselected group of cards, is the same as in the first form of the invention. In the present instance, the individual card selector push button 228a will be thrust inwardly thereby temporarily providing a parallel circuit for the source of supply 238 in the manner described in the first form of the invention. In the present embodiment this will include the metal disc 222 having the circumferential insulating segments 22211 which will now function to revolve the endless card display conveyor means sufficiently to bring into view another card tray with its attached card, as hereinbefore indicated.

When it is desired to purchase a card after the selection of a card through the viewing window, the insertion of a coin in the coinslot as above described and its subsequent forwarding by the coin-advance button, will close the circuit of a switch indicated generally at 2 l2 which is of the same type as switch 84. In the instant form, the closing of this circuit will actuate one of the two motors 243, 2 .35 in accordance with the position of the third conducting strip or armf2l which, as actually illustrated, is engaged with the adjacent metallic half 223a of disc 223. This will complete a circuit from the source of supply .230,

via wire 23!, motor 243, wire 2%, metal half 223a, conducting arm 22?, wire 246, wire 24?, switch 252, and wires 2 56, 2 to supply source.

Another motor 249 will be similarly energized the wires 259, Eel which are shunted across wires 235 and A coin-blocking solenoid 252 similar to solenoid it? is connected to wire 23l bya wire 2% and to the coin-operated switch 2 .2; and functions to prevent entry of a coin into the machine while a previously inserted coin is still operative to actuate the delivery mechanism. The motor 243, it is to be understood, is effective for rotating the shaft to which cam 2 l 5 is secured, while motor rotates the shaft on which cam Zita is feted. It will be further understood that the independent actuation of the two vacuum or suction-applying means, shown in Fig. 15, permits a card to be withdrawn from either drum ill or 2E2, as dictated by the interconnected series of gears or sprock ts and their electric controls.

The circuit (Fig. 17) of the modified form in other respects is substantially similar to that shown in Fig. 1d of the first form of the invention and includes two other solenoids 25 i, 255 which are energized from the source of supply 236 through the intermediary of the card actuated switch 256 and a cam actuated switch 25'! operated by a cam 253 on means secured to the shaft of motor t lt. The operation of coin return solenoid 25 and cash delivery solenoid 255 is identical with that described with respect to solenoids 2653 and ice of the other form of the invention, and this is also true of the switch 25! which functions in the same manner as switch 59?.

The means for independently creating a vacuum are also the same as in the first form, and include a motor 259 connected, as by wire 259, 253i and the automatic switch 252 to the source of supply 23%.

In both forms of the invention, it is to be understocd that the cards on the trays and in the bins will be accompanied by an envelope, this combination of card and envelope being considered as a card ensemble although for brevity, the term card alone has been employed throughout the foregoing description.

In viewing the cards through the window 2 it will be observed that, as best shown in Figs. 2 and 3, the trays on which each card assembly is secured, are advanced in a step-by-step counterclockwise direction and towards the said win dow. Each tray, as it approaches the window 2 changes its motion from a horizontal or rectilinear movement to an angular or arcuate and turning movement, in order to present its attached card for convenient viewing in a plane normal to the eye, and while the conveyor has temporarily ceased revolving. The actual turning of the trays while being conveyed through the intermediary of the chains .5, it and connectedpairs or" sprockets 3?, as, is effected by the ooact'ion of the rollers 52 as with the guide straps or rails 55, as will be understood by inspec ion and comparison of Figs. 2, 3 and 5.

It is to be understood that the invention may be embodied in other specific forms without departing from the spirit or essential atttributes thereof, and we therefore desire the present embodiments to be considered in all respects as illustrative and not restrictive, reference being had to theappended claims rather than to the foregoing description to indicate the scope of the invention.

What we claim is:

1. In vending apparatus intended for use with display mechanism for displaying cards to be sold by said vending apparatus, a rotatably mounted drum having a plurality of bins, each adapted to contain a supply of a particular type of card, a bellows operatively associated with each bin and carrying a vacuum cup normally engaging a card of said supply, an exhaust conduit connected to each bellows and having a mouth, a vacuum tank, a conduit communicating with said vacuum tank, means for operatively connecting said last mentioned conduit to a mouth of one of said exhaust conduits, and coin controlled mechanism for operating said connecting means.

2. In vending apparatus intended for use with display mechanism for displaying cards to be sold by said vending apparatus, a rotatably mounted drum having a plurality of bins, each adapted to contain a supply of a particular type of card, a bellows operatively associated with each bin and carrying a vacuum cup normally engaging a card of said supply, an exhaust conduit connected to each bellows and having a mouth, a vacuum tank, a pipe rockably mounted and having a nozzle at one end adapted to engage a mouth of one of said exhaust pipes to establish communication therewith, a conduit including a flexible section connecting the other end of said pipe to said vacuum tank, and coincontrolled mechanism for causing rocking movement of said pipe to bring said nozzle into engagement with one of said mouths.

3. In vending apparatus intended for use with display mechanism for displaying cards to be sold by said vending apparatus, a rotatably mounted drum having a plurality of bins, each adapted to contain a supply of a particular type of card, a bellows operatively associated with each bin and carrying a vacuum cup normally engaging a card of said supply, an exhaust conduit connected to each bellows and having a mouth, a vacuum tank, a rockably mounted pipe having a nozzle at one end adapted to engage within the mouth of one of said exhaust conduits, an automatically operable valve within said nozzle, said valve being normally closed and adapted to automatically open upon engagement of said nozzle with said mouth, a conduit having a flexible section connecting the other end of said pipe to said vacuum tank, means for rocking said pipe, and coin-controlled mechanism for causing operation of said means.

4. In vending apparatus intended for use with card display mechanism, a rotatably mounted drum having a plurality of bins, each adapted to contain a supply of a particular type of card, an electric motor for rotating said bin and for operating said display mechanism, manually operable means for energizing said, motor, a bellows operatively associated with each bin and carry ing a vacuum cup normally engaging a card of the supply in that bin, an exhaust conduit for each bellows communicating therewith, each of said exhaust conduits having a flared mouth, a vacuum tank, means for establishing communication between said vacuum tank and one of said flared mouths, and coin controlled mechanism for causing operation of said means.

5. In vending apparatus intended for use with card display mechanism, a rotatably mounted drum having a plurality of bins, each adapted to contain a supply of a particular type of card, an electric motor for rotating said bin and for operating said display mechanism, manually operable means for energizing said motor, a bellows operatively associated with each bin and carrying a vacuum cup normally engaging a card of the supply in that bin, an exhaust conduit for each bellows communicating therewith, each of said exhaust conduits having a flared mouth, a vacuum tank, a rockably mounted pipe having a nozzle at one end adapted to engage one of said mouths, a conduit having a flexible section connecting the other end of said pipe to said vacuum tank, spring means associated with said pipe normally urging said nozzle in a direction towards said mouths, a cam normally opposing such motion of said pipe but shaped to permit said spring to force said nozzle into engagement with one of said mouths, a shaft on which said cam is mounted, a second motor operatively connected to said shaft, and coin-controlled mechanism for energizing said second motor.

6. In vending apparatus intended for use with card display mechanism, a rotatable drum providing a plurality of bins each adapted to receive a supply of cards of a particular type, a delivery chute, electrically operated means for picking up a card from one of said bins and dropping it onto said chute, a coin receiving tube adapted to receive a coin from a prospective purchaser, a control switch associated with said tube and adapted to be operated by a coin therein to actuate said means, said tube being formed with an opening beneath said switch, mechanism associated with said opening for delivering a coin from a position in engagement with said switch to either a cash box or a return position, and a switch associated with said chute and adapted to be operated by a card therein to determine the operation of said mechanism.

7. In vending apparatus intended for use with card display mechanism, a rotatably mounted drum providing a plurality of bins, each adapted to contain a supply of cards, a motor for rotating said drum and for operating said display mechanism, manually operable means for energizing said motor to rotate said drum over a comparatively large angular distance, push button actuated means in electric circuit with said motor for momentarily energizing said motor to move said drum through a comparatively small angular distance, a delivery chute, means for picking up a card from the supply of one of said bins and dropping it onto the upper end of said chute, and coin controlled mechanism for operating said last mentioned means.

8. In vending apparatus intended for use with card display mechanism, a rotatably mounted drum providing a plurality of bins, each adapted to contain a supply of cards, a motor for rotating said drum and for operating said display mechanism, manually operable means for energizing said motor to rotate said drum over a comparatively large angular distance, push button actuated means in electric circuit with said motor for momentarily energizing said motor to move said drum through a comparatively small angular distance, a delivery chute, means for picking up a card from the supply of one of said bins and dropping it onto the upper end of said chute, a second motor for causing operation of said means, a control switch for said second motor, a coin receiving tube, and a pusher for moving a coin in said tube into operative engagement with said switch.

9. In vending apparatus intended for use with card display mechanism, a rotatably mounted drum providing a plurality of bins, each adapted to contain a supply of cards, a, motor for rotating said drum and for operatin said display mechanism, manually operable means for energizing said motor to rotate said drum over a comparatively large angular distance, push button actuated means in electric circuit with said motor for momentarily energizing said motor to move said drum through a comparatively small angular distance, a delivery chute means for picking up a card from the supply of one of said bins and dropping it onto the upper end of said chute, a second motor for causing operation of said means, a control switch for said second motor, a coin receiving tube, a pusher for moving a coin in said tube into operative engagement with said switch, and manually operable means for diverting a coin to a return position from said tube prior to engagement with said switch.

10. In vending apparatus intended for use with card display mechanism, a rotatably mounted drum providing a plurality of bins, each adapted to contain a supply of cards, a motor for rotating said drum and for operating said display mechanism, manually operable means for energizing said motor to rotate said drum over a comparatively large angular distance, push button actuated means in electric circuit with said motor for momentarily energizing said motor to move said drum through a comparatively 18 a rockably mounted pipe having a nozzle adapted to engage any of said flared mouths, a vacuum tank, a conduit including a flexible section connecting said vacuum tank to said pipe, a second motor for actuating said cam means, and coin controlled mechanism for causing operation of said second motor.

PHILIP CHALFIN. BENJAIWIN CHALFIN.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 748,795 'Scheble Jan. 5, 1904 852,222 Conover Apr. 30, 1907 966,083 Cochran et al Aug. 2, 1910 1,007,049 Barta Oct. 31, 1911 1,416,159 Barr May 16, 1922 1,433,444 Ziegler Oct. 24, 1922 1,775,730 McNicol Sept. 16, 1930 2,050,161 Crabb Aug. 4, 1936 2,099,682 Draeger Nov. 23, 1937 2,117,045 Warner May 10, 1938 2,172,519 Reeder Sept. 12, 1939 2,189,641 'Slezak Feb. '6, 1940 2,321,402 Margulis June 8, 1943 2,354,896 Weller Aug. 1, 1944 FOREIGN PATENTS Number Country Date 449,541 Great Britain June 29, 1936 498,178 Great Britain Jan. 4, 1939 498,368 Great Britain Jan. 6, 1939 580,500 Great Britain Apr. 19, 1945 

